TWM587448U - Transparent shoes material - Google Patents

Abstract

A light-transmissive shoe material, wherein the light-transmissive shoe material is made of composite particles through foaming and expansion, and the light-transmissive shoe material includes a plurality of air cells so that light must penetrate the light-transmissive shoe material And its internal bubble cells, and has the advantages of light weight and good resilience.

Description

Transparent shoe material

This creation is about a shoe material structure, especially a lightweight, elastic shoe material that can penetrate light.

The role of shoes is mainly to protect your feet and keep warm. You can subdivide various types of shoes according to the use. Most of the various types of shoes that have evolved today are designed to match clothing and activities, and become a unique culture and trend. One of the indicators.

The composition of shoes generally includes soles, uppers, insoles and other parts. Among them, the soles are used as a stable support between the wearer and the ground, and the reaction force cushioning and rebound from the ground are equivalent. Commonly used in shoe soles are rubber, PU (Polyurethanes, polyurethane), EVA (Ethylene Vinyl Acetate, ethylene vinyl acetate copolymer) and other material types.

However, the aforementioned common material soles have their own advantages and disadvantages. For example, although the aforementioned rubber soles have good support and durability for the feet, they are caused by weight factors, poor shock absorption functions, and poor elasticity. The reaction force is quickly and directly transmitted to the feet, so it feels stiff to wear and not everyone can adapt today.

The aforementioned PU sole has good elasticity and durability. Even if it is worn for a long time, and the amount of deformation (flattened or collapsed) is relatively small compared with the other two materials, it can be restored to its original state. The molecular structure of itself, when it is in contact with water molecules in the air for a long time, will produce molecular gaps, and finally the bonds between molecules will be broken and broken, which is difficult to save. Although the aforementioned PU sole can be naturally decomposed after being discarded, it will not cause the trouble of recycling and reduce the burden on the environment, and it has a good effect on environmental protection.

In addition, the aforementioned EVA sole has better light weight and elasticity effects, but this material has poor durability and poor elasticity. It will be deformed (flattened or collapsed) due to compression and stress for a long time.

This creation provides a shoe material, especially an innovative finished product that has light weight and good resilience, and provides light penetration through the shoe material.

A light-transmissive shoe material, wherein the light-transmissive shoe material is made of composite particles through foaming and expansion, and the light-transmissive shoe material includes a plurality of air cells so that light must penetrate the light-transmissive shoe Material and its internal air bubbles.

In the aforementioned light-transmissive shoe material, the diameter of the plurality of air cells in the light-transmissive shoe material is on average 100 μm to 500 μm.

In the aforementioned light-transmissive shoe material, the light-transmissive shoe material is a sole, a midsole or an outsole.

In the aforementioned translucent shoe material, the translucent shoe material includes a pearlescent outer surface.

The aforementioned light-transmissive shoe material, wherein the composite particles include EVA particles (Ethylene Vinyl Acetate, ethylene vinyl acetate copolymer), an elastomer, a bridging agent, a foaming agent and an admixture of a composite rubber compound, and extruded and granulated Mechanism: The aforementioned elastomers include POE elastomers and SEBS elastomers.

The translucent shoe material, wherein the bridging agent is peroxide; the foaming agent is sodium bicarbonate (NaHCO3), tosylhydrazine (TSH), or N, N'-dimethyl-N, The N'-dinitroso-p-xylylenediamine is any one of the foregoing or a combination of two or more of the foregoing, and the aforementioned auxiliary is used for the auxiliary bridging agent and the auxiliary foaming agent.

Please refer to the first to fourth figures, which show the light-transmitting shoe material of the present creation, wherein: the light-transmitting shoe material 64 is made of composite particles 61 through foaming and expansion, and the light-transmitting shoe material 64 A plurality of air bubble holes 62 are included therein, so that light must penetrate the light-transmissive shoe material 64 and the inner air bubble holes 62. As shown in the second figure, the arrow indicates that light penetrates the light-transmissive shoe material 64 and the air bubbles. 62

This creation is made by filling composite particles 61 into the foam cavity 42 of the foam shoe mold 41 (as shown in the third figure), and setting the foam shoe mold 41 to a foaming temperature of 160 ° C to 180 ° C. A semi-finished foamed shoe material 63 having a plurality of air cells 62. Then the semi-finished product 63 of the foam shoe material is placed in the shaping cavity 52 of the shaping mold 51 (as shown in the fourth figure), and the shaping mold 51 is heated to expand the semi-finished product 63 of the foamed shoe material to the same size as the shaping cavity 52. Appearance and size, and the average pore diameter of the inner pores 62 in the foam is larger than the average pore diameter of the pores 62 in the foaming above. After taking out from the sizing mold 51, a shaped transparent shoe material 64 is produced, so that light must pass through and be transparent. Shoe material 64 and its internal bubble holes 62.

The main purpose of this creation is that no filler is used in the production of the composite particles 61 (the aforementioned fillers generally refer to calcium carbonate, talc or inorganic powder), so there will be no fillers to increase the specific gravity of the particles, so that during the foaming process The gas in the air bubble hole 62 expands when heated, and no filler will remain in the air bubble hole 62, which can provide the light-transmitting shoe material 64 to obtain better resilience, so light penetrates the light-transmitting shoe material. At 64 o'clock, it can penetrate the bubble hole 62 without reflection.

In the aforementioned light-transmitting shoe material, the diameter of the plurality of air bubble holes 62 in the light-transmitting shoe material 64 is on average 100 μm to 500 μm.

In the aforementioned light-transmissive shoe material, the light-transmissive shoe material 64 is a sole, a midsole or an outsole.

In the aforementioned light-transmissive shoe material, the light-transmissive shoe material 64 includes a pearlescent outer surface 65.

The aforementioned light-transmissive shoe material, wherein the composite particles 61 include EVA particles (Ethylene Vinyl Acetate, ethylene vinyl acetate copolymer), an elastomer, a bridging agent, a foaming agent, and an admixture of a compound compound, which is manufactured by extrusion. The granular mechanism is too. The aforementioned elastomer includes a POE elastomer (Polyolefin Elastomer, ethylene octene elastomer) and a SEBS elastomer (a three-inlay copolymer in which an ethylene-butene copolymer obtained by hydrogenating polybutadiene is a middle elastic block).

The translucent shoe material, wherein the bridging agent is peroxide; the foaming agent is sodium bicarbonate (NaHCO3), tosylhydrazine (TSH), or N, N'-dimethyl-N, The N'-dinitroso-p-xylylenediamine is any one of the foregoing or a combination of two or more of the foregoing, and the aforementioned auxiliary is used for the auxiliary bridging agent and the auxiliary foaming agent.

41‧‧‧foamed shoe mold
42‧‧‧foaming cavity
51‧‧‧Shaping mold
52‧‧‧Shaping mold cavity
61‧‧‧ composite particles
62‧‧‧ Bubble hole
63‧‧‧Semi-finished products of foamed shoe materials
64‧‧‧ Transparent shoe material
65‧‧‧ pearlescent outer surface

The first picture is a three-dimensional schematic view of the translucent shoe material of this creation.
The second picture is a schematic diagram of the penetrating shoe material in this creation.
The third picture is a schematic diagram of filling composite particles and foaming created in a foaming mold.
The fourth picture is a schematic diagram of the light-transmitting shoe material that was originally created in the shaping mold and heated and expanded.

Claims (5)

A light-transmissive shoe material, wherein the light-transmissive shoe material is made of composite particles through foaming and expansion, and the light-transmissive shoe material includes a plurality of air cells so that light must penetrate the light-transmissive shoe Material and its internal air bubbles; the light-transmissive shoe material includes a pearlescent outer surface. The light-transmitting shoe material according to claim 1, wherein the plurality of bubble cells in the light-transmitting shoe material have an average diameter of 100 micrometers to 500 micrometers. The light-transmitting shoe material according to claim 1, wherein the light-transmitting shoe material is a sole or a midsole or a shoe outsole. The light-transmissive shoe material according to claim 1, wherein the composite particles include a compound rubber composed of EVA particles (Ethylene Vinyl Acetate, ethylene vinyl acetate copolymer), elastomers, bridging agents, foaming agents, and additives. The material is obtained through an extrusion granulation mechanism; the aforementioned elastomer includes a POE elastomer and a SEBS elastomer. The light-transmitting shoe material according to claim 4, wherein the bridging agent is peroxide; the foaming agent is sodium bicarbonate (NaHCO3), tosylhydrazine (TSH), or N, N'- Any one or a combination of two or more of the aforementioned dimethyl-N, N'-dinitroso-p-xylylenediamines, and the aforementioned auxiliary agents are used for auxiliary bridging agents and auxiliary foaming agents.